Assessment of Airways Mechanical Properties by FOT and LIR During Anesthesia

Uppsala University Hospital

Status

Completed

Conditions

Anesthesia

Treatments

Procedure: Forced oscillatory technique (FOT) and laser interferometry (LIR).

Study type

Observational

Funder types

Other

Identifiers

NCT01506284

Uppsala 2011 - 189

Details and patient eligibility

About

The aims of the present study are:

To evaluate the effect of the induction of anaesthesia and paralysis in terms of changes in oscillatory mechanics parameters
To evaluate the mechanical properties of the respiratory system in terms of input and transfer oscillatory impedance in response to PEEP changes

Full description

It has been recently shown that respiratory system reactance (Xrs) obtained by the forced oscillation technique (FOT) at 5 Hz is more reliable than dynamic compliance for assessing lung collapse and the effects of lung RMs in a porcine ALI model ( Ref.1,2).

Specifically, Xrs (and its derived variable CX5, the oscillatory compliance at 5 Hz) identifies the minimum positive end-expiratory pressure (PEEP) level required to maintain lung recruitment with high sensitivity and specificity. Moreover, it has been recently demonstrated that Xrs may be used to identify the lowest level of PEEP able to prevent atelectasis and that PEEP setting strategy based on maximizing Xrs is able to limit lung injury compared to oxygenation-based approach in a porcine lavage model of lung injury. ( Ref.3)

Recently, at the biomedical engineering department of Politecnico di Milano measurements of chest wall displacement have been successfully performed by means of an optical sensor realized using a laser self-mixing interferometer (LIR). The advantage of this approach is that it is contact-less, that by deflecting the laser been it is possible to scan any region of the chest wall surface and that it allows to measure also low-frequency vibrations.

Protocol

The baseline pulmonary function will be assessed by spirometry before surgery.
Just before surgery measurements of oscillatory mechanics will be performed at the following stages:
- awake patient
- spontaneous ventilation through the laryngeal mask after induction of anesthesia
- pressure controlled ventilation (PCV) after the administration of neuromuscular blocking agent and intubation and PEEP 0 cmH2O
- PCV with PEEP 5 cmH2O
- Recruitment maneuver (RM) (peak pressure 30 cmH2O and PEEP 15 cmH2O) for 2 minutes
- PCV with PEEP 5 cmH2O after RM

At each stage the following measurements will be performed:

Input impedance at 5-11-19 Hz by FOT
the movements of the chest wall assessed by laser interferometry (LIR) applying two different stimulating waveforms: 5-11-19 Hz and 100 Hz
functional residual capacity (FRC)
arterial blood gas measurement (ABG)

Enrollment

14 patients

Sex

All

Ages

18 to 80 years old

Volunteers

No Healthy Volunteers

Inclusion criteria